I'm not sure I totally follow the issue. If I'm understanding you correctly, you want to ensure that the range of each of your plots is 11111 (in this example, anyway), but the upper and lower values are going to vary significantly. So, right now, you're looking for a way to create a table of all the possible upper and lower bounds you might want, and then you want to look them up when you plot.
I'd propose that you could do it a lot more easily by simply writing the plot statement to ensure that the minimum and maximum are always 11111 apart.
Let's say you got start <- 235000, end <- 240000, and trait <- B during one loop iteration. Could you structure your code like this?
diff <- end-start
gap <- 11111-diff
diff <- 240000-235000 (5000)
gap <- 11111-5000 (6111)
(x limits are: 231944.5,243055.5, making the plot 11111 in length)
Obviously, if you wanted, you could use floor and ceiling functions to get round numbers instead of decimals. It's not clear from your question how the "trait" even really affects the dimensions; if you can have two traits (B and C) that are plotted using the same dimensions, why do you need the table at all? I think you can do a lot better just doing it for each plot using simple functions.
EDITED BASED ON REVISION:
Josh beat me to it, but here it is again since I had it almost all typed.
df <- data.frame(trait=c("A","B","C","D"),
trait <- "C"
start <- 235000
end <- 240000
xmin <- df[which(start > df$start & end < df$end & trait == df$trait),2]
xmax <- df[which(start > df$start & end < df$end & trait == df$trait),3]